New research offers compelling evidence for intermediate-mass black holes (IMBHs), the "missing links" in black hole evolution. These studies provide unprecedented insights into the universe's earliest stars and galaxy formation, bridging the gap between stellar and supermassive black holes.
In a recent study by University of Florida astronomer Adam Ginsburg, researchers have used the James Webb telescope (JWST) to uncover the mysterious dark region at the centre of our Milky Way galaxy, named "The Brick".
Physicists from University College London (UCL) have put forth a theory to adapt the longstanding clash between two foundational pillars of modern physics – quantum theory and Einstein's theory of general relativity.
A groundbreaking revelation by scientists at the University of Leeds has the potential to reshape astronomers' understanding of some of the largest and most prevalent stars in the universe.
Recent breakthroughs in Mars exploration bring humanity closer to realising Mars immigration dreams. The key lies in overcoming the challenge of oxygen scarcity for long-term survival.
Scientists at Cornell University suggest that by examining Earth's Phanerozoic era, telescopes could improve the detection of potential signs of life on exoplanets.
During the 1980s, geography scientists found a remarkable revelation: they identified two massive, continent-sized masses of distinct material deep within the Earth's core.
The James Webb telescope, operated by NASA, recently observed the Crab Nebula, a remnant of a supernova explosion situated 6,500 light-years away in the Taurus constellation.
The James Webb Space Telescope, operated by NASA, has made a groundbreaking observation within Jupiter’s atmosphere, unveiling a previously undiscovered phenomenon.